Volume 7 Issue 3
May  2017
Turn off MathJax
Article Contents
Article Navigation >  Journal of Environmental Engineering Technology  > 2017  >  7(3): 262-267
DONG Jing, SUN Changhong, WANG Yonggang, WANG Xu, LI Mingwei, WU Juanli. Dynamics of atmospheric ammonia concentrations over representative agricultural region in Beijing[J]. Journal of Environmental Engineering Technology, 2017, 7(3): 262-267. doi: 10.3969/j.issn.1674-991X.2017.03.038
Citation: DONG Jing, SUN Changhong, WANG Yonggang, WANG Xu, LI Mingwei, WU Juanli. Dynamics of atmospheric ammonia concentrations over representative agricultural region in Beijing[J]. Journal of Environmental Engineering Technology, 2017, 7(3): 262-267. doi: 10.3969/j.issn.1674-991X.2017.03.038
shu

Dynamics of atmospheric ammonia concentrations over representative agricultural region in Beijing

doi: 10.3969/j.issn.1674-991X.2017.03.038

  • 1. Beijing Municipal Research Institute of Environmental Protection, Beijing 100037, China

  • 2. National Engineering Research Center for Urban Environmental Pollution Control, Beijing 100037, China

  • 3. Institute of Nuclear and Energy Technology, Tsinghua University, Beijing 100084, China

More Information
  • Corresponding author: Yonggang WANG E-mail: edward8848@163.com
  • Received Date: 2016-08-31
  • Publish Date: 2017-05-20
    Abstract
  • The spatial-temporal variability of ammonia in the atmosphere over representative agricultural region in Beijing during 2015 was monitored. The results showed that the livestock farm and fertilizer factory are both the most important ammonia sources in agricultural region, with the highest ammonia concentrations reaching 3.52 and 4.27 mg/m 3 at the downwind of the fence line, respectively. The ammonia concentrations at agricultural region presented significant difference between seasons as well as day and night, which were higher in summer and autumn, and lower in winter and spring, meanwhile higher at afternoon and lower at night. During the daytime, the ammonia concentrations present descending order at fertilizer factory, livestock farm, cropland, avenue, residential district, and forest land. At night, the ammonia concentrations were still high at fertilizer factory and livestock farm, but the affected scope was significantly reduced, while the ammonia concentrations obviously decreased at cropland, residential district, and avenue. The ammonia concentrations at residential district in the agricultural region were much lower than the Emission Standards for Odor Pollutants, and would not affect human health.

     

    • FullText(HTML)
  • loading
    • References(23)
  • [1]
    KIM J S, BAIS A L, KANG S H , et al. A semi-continuous measurement of gaseous ammonia and particulate ammonium concentrations in PM2.5 in the ambient atmosphere[J]. Journal of Atmospheric Chemistry, 2011,68(3):251-263.
    [2]
    SAILESH N B, MUKESH S, VINEY P A , et al. Ammonia in the atmosphere:a review on emission sources,atmospheric chemistry and deposition on terrestrial bodies[J]. Environment Science Pollution Research, 2013,20(11):8092-8131.
    [3]
    ALLAN K, MAREK M . Concentrations of airborne particulate matter,ammonia and carbon dioxide in large scale uninsulated loose housing cowsheds in Estonia[J]. Biosystems Engineering, 2013,114:223-231.
    [4]
    WANG W X, LU Y F, PANG Y B , et al. Geographical distribution of NH3 emission intensities in China[J]. Acta Scientiae Circumstantiae, 1997,17(1):1-6.
    [5]
    US EPA . 2008 national emissions inventory: version 2.technical support document[R]. Washington DC: US EPA, 2012.
    [6]
    董艳强, 陈长虹, 黄成 , 等. 长江三角洲地区人为源氨排放清单及分布特征[J]. 环境科学学报, 2009,29(8):1611-1617.

    DONG Y Q, CHEN C H, HUANG C , et al. Anthropogenic emissions and distribution of ammiona over the Yangtze River Delta[J]. Acta Scientiae Circumstantiae, 2009,29(8):1611-1617.
    [7]
    尹沙沙, 郑君瑜, 张礼俊 , 等. 珠江三角洲人为氨源排放清单及特征[J]. 环境科学, 2010,31(5):1146-1151.

    YIN S S, ZHENG J Y, ZHANG L J , et al. Anthropogenic ammiona emission inventory and characteristics in the Pearl River Delta region[J]. Environmental Science, 2010,31(5):1146-1151.
    [8]
    李吉进 . 畜禽粪便高温堆肥机理与应用研究[D]. 北京:中国农业大学, 2004.
    [9]
    代小蓉 . 集约化猪场NH3的排放系数研究[D]. 杭州:浙江大学, 2014.
    [10]
    籍景淑 . 猪场氨气控制研究[D]. 武汉:华中农业大学, 2012.
    [11]
    汪开英, 代小蓉, 李震宇 , 等. 不同地面结构的育肥猪舍NH3排放系数[J]. 农业机械学报, 2010,41(1):163-166.

    WANG K Y, DAI X R, LI Z Y , et al. NH3 emission factors of fattening pig buildings with different floor systems[J]. Transactions of the Chinese Society for Agricultural Machinery, 2010,41(1):163-166.
    [12]
    PHILIPPE F X, LAITAT M, CANART B , et al. Comparison of ammonia and greenhouse gas emissions during the fattening of pigs kept either on fully slatted floor or on deep litter[J]. Livestock Science, 2007,111(1/2):144-152.
    [13]
    赵秋, 张明怡, 刘颖 , 等. 猪粪堆肥过程中氮素物质转化规律研究[J]. 黑龙江农业科技, 2008(2):58-60.

    ZHAO Q, ZHANG M Y, LIU Y , et al. Study on the nitrogen transforming regulation during the pig dung compost[J]. Heilongjiang Agricultural Sciences, 2008(2):58-60.
    [14]
    王岩, 王文亮, 霍晓婷 . 家畜粪尿的堆肥化处理技术研究:Ⅱ.堆肥材料的发酵特性和氨气挥发[J]. 河南农业大学学报, 2002,36(3):284-287.

    WANG Y, WANG W L, HUO X T . Study on composting treatment of livestock wastes:Ⅱ.decomposition of composting materials and emission of ammonium[J]. Journal of Henan Agricultural University, 2002,36(3):284-287.
    [15]
    赵晨阳 . 堆肥过程中有害气体(NH3、N2O、CH4)减排与氮素保存研究[D]. 北京:首都经济贸易大学, 2014.
    [16]
    李鑫, 巨晓棠, 张丽娟 , 等. 不同施肥方式对土壤氨挥发和氧化亚氮排放的影响[J]. 应用生态学报, 2008,19(1):99-104.

    LI X, JU X T, ZHANG L J , et al. Effects of different fertilization modes on soil ammonia volatilization and nitrous oxide emission[J]. Chinese Journal of Applied Ecology, 2008,19(1):99-104.
    [17]
    张翀, 李雪倩, 苏芳 , 等. 施氮方式及测定方法对紫色土夏玉米氨挥发的影响[J]. 农业环境科学学报, 2016,35(6):1194-1201.

    ZHANG C, LI X Q, SU F , et al. Effects of different fertilization and measurement methods on ammonia volatilization of summer maize in purple soil[J]. Journal of Agro-environment Science, 2016,35(6):1194-1201.
    [18]
    王欢, 郑西来, 辛佳 . 土壤氨挥发的影响因素及其与脲酶活性的关系研究[J]. 安徽农学通报, 2016,22(9):74-79.

    WANG H, ZHENG X L, XIN J . Influencing factors on ammonia volatilization and its relations with urease activity[J]. Anhui Agriculture Science Bulletin, 2016,22(9):74-79.
    [19]
    王朝辉, 田霄鸿, 李生秀 . 冬小麦生长后期地上部分氮素的氨挥发损失[J]. 作物学报, 2001,27(1):1-6.

    WANG Z H, TIAN X H, LI S X . Nitrogen losses from winter wheat plant by NH3 volatilization in late growing stage[J]. Acta Agronomica Sinica, 2001,27(1):1-6.
    [20]
    刘杰云, 况福虹, 唐傲寒 , 等. 不同排放源周边大气环境中NH3浓度动态生态学报[J]. 生态学报, 2013,33(23):7537-7544.

    LIU J Y, KUANG F H, TANG A H , et al. Dynamics of atmospheric ammonia concentrations near different emission sources[J]. Acta Ecologica Sinica, 2013,33(23):7537-7544.
    [21]
    IANNIELLO A, SPATARO F, ESPOSITO G , et al. Occurrence of gas phase ammonia in the area of Beijing (China)[J]. Atmospheric Chemistry and Physics, 2010,10(19):9487-9503.
    [22]
    PERRINO C, CATAMBONE M, BUCCHIANICO A D M D , et al. Gaseous ammonia in the urban area of Rome,Italy and its relationship with traffic emissions[J]. Atmospheric Environment, 2002,36(34):5385-5394.
    [23]
    吴小庆, 徐阳春, 沈其荣 . 植物叶片氨挥发研究进展[J]. 生态与农村环境学报, 2006,22(2):80-84.

    WU X Q, XU Y C, SHEN Q R . Progress in research on ammonia volatilization from plant leaves[J]. Journal of Ecology and Rural Environment, 2006,22(2):80-84.
    • Relative Articles
    • Supplements(0)
    • Cited By
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索
    Get Citation
    PDF
    XML

    Article Metrics

    Article Views(1042) PDF Downloads(985) Cited by()
    Proportional views
    Related

    Copyright © Editorial Department of Journal of Environmental Engineering Technology

    京ICP备05031605号-2

    Supported by: Beijing Renhe Information Technology Co., Ltd.

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return